Influence of multiphysics couplings on the performance of a MEMS magnetometer

Ranvier, S.; Paquay, Stéphane; Requier, Sébastien; Lamy, hervé; Rochus, Véronique; Francis, Laurent; Rochus, Pierre

doi:10.1109/ESIME.2011.5765803

Influence of multiphysics couplings on the performance of a MEMS magnetometer

Ranvier, S.

;

Paquay, Stéphane

;

Requier, Sébastien

;

Lamy, hervé

;

Rochus, Pierre

;et.al.

(2011) EuroSimE 2011 — Location: Linz (Austria) (17.April.2011)

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Authors

Ranvier, S.Belgian Institute for Space Aeronomy
Author
Paquay, StéphaneUniversité de Liège, belgium
Author
Requier, SébastienUniversité de Liège, belgium
Author
Lamy, hervéBelgian Institute for Space Aeronomy
Author
Francis, LaurentUCLouvain
Author
Rochus, PierreCentre Spacial de Liège, Belgium
Author

Abstract

In this paper, several physical phenomena that are usually not taken into account in MEMS simulations are considered for the simulation of a MEMS xylophone bar magnetometer. These phenomena are the temperature dependency of the material properties, the strong coupling between various fields of physics (thermal, electric and mechanical) and the stress produced by the change of temperature inside the structure. It is shown that the temperature dependency of the material properties has a relatively small influence whereas the pre-stress has a significant one. Because of the pre-stressed state, the deformation of the bar at the fundamental frequency is not a typical first mode vibration but it exhibits additional waves between the linkages, where the bar is stressed, which significantly decrease the amplitude of the deflection.

Affiliations

UCLouvainSST/ICTM/ELEN - Pôle en ingénierie électrique

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Ranvier, S., Paquay, S., Requier, S., Lamy, h., Rochus, V., Francis, L., & Rochus, P. (2011). Influence of multiphysics couplings on the performance of a MEMS magnetometer. EuroSimE 2011, Linz (Austria). https://doi.org/10.1109/ESIME.2011.5765803